qiskit-documentation/docs/api/qiskit/0.31/qiskit.pulse.instructions.Acquire.mdx

---
title: Acquire (v0.31)
description: API reference for qiskit.pulse.instructions.Acquire in qiskit v0.31
in_page_toc_min_heading_level: 1
python_api_type: class
python_api_name: qiskit.pulse.instructions.Acquire
---

# Acquire

<Class id="qiskit.pulse.instructions.Acquire" isDedicatedPage={true} github="https://github.com/qiskit/qiskit/tree/stable/0.18/qiskit/pulse/instructions/acquire.py" signature="Acquire(duration, channel, mem_slot=None, reg_slot=None, kernel=None, discriminator=None, name=None)" modifiers="class">
  Bases: `qiskit.pulse.instructions.instruction.Instruction`

  The Acquire instruction is used to trigger the ADC associated with a particular qubit; e.g. instantiated with AcquireChannel(0), the Acquire command will trigger data collection for the channel associated with qubit 0 readout. This instruction also provides acquisition metadata:

  > *   the number of cycles during which to acquire (in terms of dt),
  > *   the register slot to store classified, intermediary readout results,
  > *   the memory slot to return classified results,
  > *   the kernel to integrate raw data for each shot, and
  > *   the discriminator to classify kerneled IQ points.

  Create a new Acquire instruction.

  **Parameters**

  *   **duration** (`Union`\[`int`, `ParameterExpression`]) – Length of time to acquire data in terms of dt.
  *   **channel** (`AcquireChannel`) – The channel that will acquire data.
  *   **mem\_slot** (`Optional`\[`MemorySlot`]) – The classical memory slot in which to store the classified readout result.
  *   **reg\_slot** (`Optional`\[`RegisterSlot`]) – The fast-access register slot in which to store the classified readout result for fast feedback.
  *   **kernel** (`Optional`\[`Kernel`]) – A `Kernel` for integrating raw data.
  *   **discriminator** (`Optional`\[`Discriminator`]) – A `Discriminator` for discriminating kerneled IQ data into 0/1 results.
  *   **name** (`Optional`\[`str`]) – Name of the instruction for display purposes.

  **Raises**

  [**PulseError**](qiskit.pulse.PulseError "qiskit.pulse.PulseError") – If channels are supplied, and the number of register and/or memory slots does not equal the number of channels.

  ## Methods

  <span id="qiskit-pulse-instructions-acquire-append" />

  ### append

  <Function id="qiskit.pulse.instructions.Acquire.append" signature="Acquire.append(schedule, name=None)">
    Return a new [`Schedule`](qiskit.pulse.Schedule "qiskit.pulse.Schedule") with `schedule` inserted at the maximum time over all channels shared between `self` and `schedule`.

    **Parameters**

    *   **schedule** (*Union\['Schedule', 'Instruction']*) – Schedule or instruction to be appended
    *   **name** (`Optional`\[`str`]) – Name of the new schedule. Defaults to name of self

    **Returns**

    A new schedule with `schedule` a this instruction at t=0.

    **Return type**

    [Schedule](qiskit.pulse.Schedule "qiskit.pulse.Schedule")
  </Function>

  <span id="qiskit-pulse-instructions-acquire-assign-parameters" />

  ### assign\_parameters

  <Function id="qiskit.pulse.instructions.Acquire.assign_parameters" signature="Acquire.assign_parameters(value_dict)">
    Modify and return self with parameters assigned according to the input.

    **Parameters**

    **value\_dict** (`Dict`\[`ParameterExpression`, `Union`\[`ParameterExpression`, `float`]]) – A mapping from Parameters to either numeric values or another Parameter expression.

    **Return type**

    `Instruction`

    **Returns**

    Self with updated parameters.
  </Function>

  <span id="qiskit-pulse-instructions-acquire-ch-duration" />

  ### ch\_duration

  <Function id="qiskit.pulse.instructions.Acquire.ch_duration" signature="Acquire.ch_duration(*channels)">
    Return duration of the supplied channels in this Instruction.

    **Parameters**

    **\*channels** – Supplied channels

    **Return type**

    `int`
  </Function>

  <span id="qiskit-pulse-instructions-acquire-ch-start-time" />

  ### ch\_start\_time

  <Function id="qiskit.pulse.instructions.Acquire.ch_start_time" signature="Acquire.ch_start_time(*channels)">
    Return minimum start time for supplied channels.

    **Parameters**

    **\*channels** – Supplied channels

    **Return type**

    `int`
  </Function>

  <span id="qiskit-pulse-instructions-acquire-ch-stop-time" />

  ### ch\_stop\_time

  <Function id="qiskit.pulse.instructions.Acquire.ch_stop_time" signature="Acquire.ch_stop_time(*channels)">
    Return maximum start time for supplied channels.

    **Parameters**

    **\*channels** – Supplied channels

    **Return type**

    `int`
  </Function>

  <span id="qiskit-pulse-instructions-acquire-draw" />

  ### draw

  <Function id="qiskit.pulse.instructions.Acquire.draw" signature="Acquire.draw(dt=1, style=None, filename=None, interp_method=None, scale=1, plot_all=False, plot_range=None, interactive=False, table=True, label=False, framechange=True, channels=None)">
    Plot the instruction.

    **Parameters**

    *   **dt** (`float`) – Time interval of samples
    *   **style** (*Optional\[SchedStyle]*) – A style sheet to configure plot appearance
    *   **filename** (`Optional`\[`str`]) – Name required to save pulse image
    *   **interp\_method** (`Optional`\[`Callable`]) – A function for interpolation
    *   **scale** (`float`) – Relative visual scaling of waveform amplitudes
    *   **plot\_all** (`bool`) – Plot empty channels
    *   **plot\_range** (`Optional`\[`Tuple`\[`float`]]) – A tuple of time range to plot
    *   **interactive** (`bool`) – When set true show the circuit in a new window (this depends on the matplotlib backend being used supporting this)
    *   **table** (`bool`) – Draw event table for supported instructions
    *   **label** (`bool`) – Label individual instructions
    *   **framechange** (`bool`) – Add framechange indicators
    *   **channels** (`Optional`\[`List`\[`Channel`]]) – A list of channel names to plot

    **Returns**

    A matplotlib figure object of the pulse schedule

    **Return type**

    matplotlib.figure
  </Function>

  <span id="qiskit-pulse-instructions-acquire-flatten" />

  ### flatten

  <Function id="qiskit.pulse.instructions.Acquire.flatten" signature="Acquire.flatten()">
    Return itself as already single instruction.

    **Return type**

    `Instruction`
  </Function>

  <span id="qiskit-pulse-instructions-acquire-insert" />

  ### insert

  <Function id="qiskit.pulse.instructions.Acquire.insert" signature="Acquire.insert(start_time, schedule, name=None)">
    Return a new [`Schedule`](qiskit.pulse.Schedule "qiskit.pulse.Schedule") with `schedule` inserted within `self` at `start_time`.

    **Parameters**

    *   **start\_time** (`int`) – Time to insert the schedule schedule
    *   **schedule** (*Union\['Schedule', 'Instruction']*) – Schedule or instruction to insert
    *   **name** (`Optional`\[`str`]) – Name of the new schedule. Defaults to name of self

    **Returns**

    A new schedule with `schedule` inserted with this instruction at t=0.

    **Return type**

    [Schedule](qiskit.pulse.Schedule "qiskit.pulse.Schedule")
  </Function>

  <span id="qiskit-pulse-instructions-acquire-is-parameterized" />

  ### is\_parameterized

  <Function id="qiskit.pulse.instructions.Acquire.is_parameterized" signature="Acquire.is_parameterized()">
    Return True iff the instruction is parameterized.

    **Return type**

    `bool`
  </Function>

  <span id="qiskit-pulse-instructions-acquire-shift" />

  ### shift

  <Function id="qiskit.pulse.instructions.Acquire.shift" signature="Acquire.shift(time, name=None)">
    Return a new schedule shifted forward by time.

    **Parameters**

    *   **time** (`int`) – Time to shift by
    *   **name** (`Optional`\[`str`]) – Name of the new schedule. Defaults to name of self

    **Returns**

    The shifted schedule.

    **Return type**

    [Schedule](qiskit.pulse.Schedule "qiskit.pulse.Schedule")
  </Function>

  ## Attributes

  ### acquire

  <Attribute id="qiskit.pulse.instructions.Acquire.acquire">
    Acquire channel to acquire data. The `AcquireChannel` index maps trivially to qubit index.

    **Return type**

    `AcquireChannel`
  </Attribute>

  ### channel

  <Attribute id="qiskit.pulse.instructions.Acquire.channel">
    Return the `Channel` that this instruction is scheduled on.

    **Return type**

    `AcquireChannel`
  </Attribute>

  ### channels

  <Attribute id="qiskit.pulse.instructions.Acquire.channels">
    Returns the channels that this schedule uses.

    **Return type**

    `Tuple`\[`Union`\[`AcquireChannel`, `MemorySlot`, `RegisterSlot`]]
  </Attribute>

  ### discriminator

  <Attribute id="qiskit.pulse.instructions.Acquire.discriminator">
    Return discrimination settings.

    **Return type**

    `Discriminator`
  </Attribute>

  ### duration

  <Attribute id="qiskit.pulse.instructions.Acquire.duration">
    Duration of this instruction.

    **Return type**

    `Union`\[`int`, `ParameterExpression`]
  </Attribute>

  ### id

  <Attribute id="qiskit.pulse.instructions.Acquire.id">
    Unique identifier for this instruction.

    **Return type**

    `int`
  </Attribute>

  ### instructions

  <Attribute id="qiskit.pulse.instructions.Acquire.instructions">
    Iterable for getting instructions from Schedule tree.

    **Return type**

    `Tuple`\[`Tuple`\[`int`, `Instruction`]]
  </Attribute>

  ### kernel

  <Attribute id="qiskit.pulse.instructions.Acquire.kernel">
    Return kernel settings.

    **Return type**

    `Kernel`
  </Attribute>

  ### mem\_slot

  <Attribute id="qiskit.pulse.instructions.Acquire.mem_slot">
    The classical memory slot which will store the classified readout result.

    **Return type**

    `MemorySlot`
  </Attribute>

  ### name

  <Attribute id="qiskit.pulse.instructions.Acquire.name">
    Name of this instruction.

    **Return type**

    `str`
  </Attribute>

  ### operands

  <Attribute id="qiskit.pulse.instructions.Acquire.operands">
    Return instruction operands.

    **Return type**

    `Tuple`
  </Attribute>

  ### parameters

  <Attribute id="qiskit.pulse.instructions.Acquire.parameters">
    Parameters which determine the instruction behavior.

    **Return type**

    `Set`
  </Attribute>

  ### reg\_slot

  <Attribute id="qiskit.pulse.instructions.Acquire.reg_slot">
    The fast-access register slot which will store the classified readout result for fast-feedback computation.

    **Return type**

    `RegisterSlot`
  </Attribute>

  ### start\_time

  <Attribute id="qiskit.pulse.instructions.Acquire.start_time">
    Relative begin time of this instruction.

    **Return type**

    `int`
  </Attribute>

  ### stop\_time

  <Attribute id="qiskit.pulse.instructions.Acquire.stop_time">
    Relative end time of this instruction.

    **Return type**

    `int`
  </Attribute>
</Class>